A heat-sensitive recording material includes a heat-sensitive recording layer containing a basic dye and a developer and provided on a supporting body, in which the developer is at least one type of an N-substituted amino acid derivative represented by the following General Formula:

(RX).sub.mY(Z).sub.m(1)

(In Formula (1), R represents an alkyl group or an aryl group which may have a substituent. X is a group bonded to the N-terminus of Y, and represents OCO, SO.sub.2NHCO, NHCO, NHCS, or SO.sub.2. Y represents an amino acid residue or a peptide residue. Z represents a group bonded to the C-terminus of Y and represents an OH group or an OR group. When Y is an amino acid residue other than a cystine residue or when Y is a peptide residue not having a cystine residue, m=1, and when Y is a peptide residue having n cystine residues, m=n+1 and n is 1 or 2.)

The invention relates to novel chemical entities that act as thromboxane (TX) A.sub.2 receptor, or T prostanoid receptor (TP), antagonists and to their use in the treatment of human diseases in which thromboxane (TX) A and of all other agents that act as incidental ligands of TP, including the endoperoxide prostaglandin (PG)G.sub.2/PGH.sub.2, 20-hydroxyeicosatetraenoic acid (20-HETE) and the free-radical derived isoprostanes (e.g., 8-iso-prostaglandin (PG)F.sub.2?), play a role. Compounds of the invention preferably include a benzenesulfonyl urea in which the benzene is substituted by a substituted biphenylyloxy group (e.g., at the 2 position) and by a nitrile group (e.g., at the 5 position), which compounds show promising results as TP-isoform selective TP antagonists.

The invention relates to novel chemical entities that act as thromboxane (TX) A.sub.2 receptor, or T prostanoid receptor (TP), antagonists and to their use in the treatment of human diseases in which thromboxane (TX) A and of all other agents that act as incidental ligands of TP, including the endoperoxide prostaglandin (PG)G.sub.2/PGH.sub.2, 20-hydroxyeicosatetraenoic acid (20-HETE) and the free-radical derived isoprostanes (e.g., 8-iso-prostaglandin (PG)F.sub.2?), play a role. Compounds of the invention preferably include a benzenesulfonyl urea in which the benzene is substituted by a substituted biphenylyloxy group (e.g., at the 2 position) and by a nitrile group (e.g., at the 5 position), which compounds show promising results as TP-isoform selective TP antagonists.

The invention relates to novel chemical entities that act as thromboxane (TX) A.sub.2 receptor, or T prostanoid receptor (TP), antagonists and to their use in the treatment of human diseases in which thromboxane (TX) A and of all other agents that act as incidental ligands of TP, including the endoperoxide prostaglandin (PG)G.sub.2/PGH.sub.2, 20-hydroxyeicosatetraenoic acid (20-HETE) and the free-radical derived isoprostanes (e.g., 8-iso-prostaglandin (PG)F.sub.2), play a role. Compounds of the invention preferably include a benzenesulfonyl urea in which the benzene is substituted by a substituted biphenylyloxy group (e.g., at the 2 position) and by a nitrile group (e.g., at the 5 position), which compounds show promising results as TP-isoform selective TP antagonists.

The invention relates to novel chemical entities that act as thromboxane (TX) A.sub.2 receptor, or T prostanoid receptor (TP), antagonists and to their use in the treatment of human diseases in which thromboxane (TX) A and of all other agents that act as incidental ligands of TP, including the endoperoxide prostaglandin (PG)G.sub.2/PGH.sub.2, 20-hydroxyeicosatetraenoic acid (20-HETE) and the free-radical derived isoprostanes (e.g., 8-iso-prostaglandin (PG)F.sub.2), play a role. Compounds of the invention preferably include a benzenesulfonyl urea in which the benzene is substituted by a substituted biphenylyloxy group (e.g., at the 2 position) and by a nitrile group (e.g., at the 5 position), which compounds show promising results as TP-isoform selective TP antagonists.

The invention generally relates to methods and compounds for treating proliferative disorders, viral infections, or both. In some embodiments, the invention provides an anticancer or antiviral compound including a substituted nitro phenoxy phenyl, a sulfonylurea, and an alkyl group. In some embodiments, the invention provides a method of treating a proliferative disorder or a viral infection including administering an anticancer or antiviral compound that binds to a thromboxane receptor, has preferential binding for either TPalpha (TP) or TPbeta (TP) receptor subtype.

The invention generally relates to compounds that function as TP antagonists for treating thrombosis and other cardiovascular, renal, or pulmonary diseases. In some embodiments, the invention provides a compound including a substituted nitro phenoxy phenyl, a sulfonylurea, and an alkyl group. In some embodiments, the invention provides a method of treating thrombosis by administering an antithrombotic compound that preferentially binds to a thromboxane receptor, has preferential binding for either TPalpha (TP) or TPbeta (TP) receptor subtype.

The invention generally relates to compounds that function as TP antagonists for treating thrombosis and other cardiovascular, renal, or pulmonary diseases. In some embodiments, the invention provides a compound including a substituted nitro phenoxy phenyl, a sulfonylurea, and an alkyl group. In some embodiments, the invention provides a method of treating thrombosis by administering an antithrombotic compound that preferentially binds to a thromboxane receptor, has preferential binding for either TPalpha (TP) or TPbeta (TP) receptor subtype.

The invention generally relates to compounds that function as TP antagonists for treating thrombosis and other cardiovascular, renal, or pulmonary diseases. In some embodiments, the invention provides a compound including a substituted nitro phenoxy phenyl, a sulfonylurea, and an alkyl group. In some embodiments, the invention provides a method of treating thrombosis by administering an antithrombotic compound that preferentially binds to a thromboxane receptor, has preferential binding for either TPalpha (TP) or TPbeta (TP) receptor subtype.

The invention generally relates to compounds that function as TP antagonists for treating thrombosis and other cardiovascular, renal, or pulmonary diseases. In some embodiments, the invention provides a compound including a substituted nitro phenoxy phenyl, a sulfonylurea, and an alkyl group. In some embodiments, the invention provides a method of treating thrombosis by administering an antithrombotic compound that preferentially binds to a thromboxane receptor, has preferential binding for either TPalpha (TP) or TPbeta (TP) receptor subtype.